Member's profile
Team size : 10 to 49
Address : 1100 Notre Dame Ouest, H3C 1K3, Montréal Administrative region : Montréal Province : Quebec Country : Canada Telephone : +15143968886 Website : https://www.etsmtl.ca/laboratoires/lipec
La mission du Laboratoire d’ingénierie des polymères et composites (LIPEC) de l’École de technologie supérieure (ÉTS) est de former des chercheurs et du personnel hautement qualifié en réalisant des projets de recherche appliquée portant sur les matériaux polymériques et composites. Les travaux du LIPEC s’inscrivent dans une visée d’amélioration et d’optimisation des propriétés des matériaux polymériques et composites, de développement de procédés de mise en forme, ainsi que des techniques de prédiction, de mesure, de maintien et de restauration des performances dans plusieurs domaines d’applications. L'un des axes de recherche du LIPEC est la conception et mise en forme des thermoplastiques fonctionnels, par exemple grâce à la fabrication additive.
Member's profile
Main application areas for your AM projects and business contracts : Aerospace and defence Construction, building and infrastructure Industrial equipment and tools Consumer products
AM workflow steps : Characterization and quality control Product/process optimization Design and modelling
Processes Used : Photopolymerization - ALS Material extrusion - FDM/FFF
AM-related materials, (powders, etc.) : Polymers Composites
AM-related machinery and accessories : Mixers Extruders
Member's profile
3D Printer Fleet
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Description Formlabs Form 3:
A thermoset resin based 3d printer based on the Stereolithography Apparatus method to print parts with 25 μm resolution.
Slicer: PreForm
Operating temperature: 18-25°CProcesses Photopolymerization - ALS
Materials available on this machine A wide range of resins provided by Formlabs
Maximum 3D part dimensions (inches) / L x W x H 145 × 145 × 185 mm
Number of machines (specify) 1
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Description Markforged Mark 2
Printing thermoplastic polymer-based composite parts reinforced with continuous glass or carbon fibers.Processes Material extrusion - FDM/FFF
Materials available on this machine Filaments provided by Markforged: (Polymer: Onyx, Nylon White, Precise PLA/ Fiber: Aramid Fiber (Kevlar), Fiberglass, HSHT Fiberglass)
Slicer: Eiger
Maximum printing temperature: 300 °CMaximum 3D part dimensions (inches) / L x W x H Build volume: 320 x 132 x 154 mm
Number of machines (specify) 1
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Description AON3D AON M2+
Printing large high-performance thermoplastics in a heated chamber.
Slicer: Open-market slicers
Maximum printing temperature: 450 °CProcesses Material extrusion - FDM/FFF
Materials available on this machine Open filament system (including Composite-Ready filaments)
Maximum 3D part dimensions (inches) / L x W x H Build volume: 450 × 450 × 565 mm
Number of machines (specify) 1
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Description Creality Ender3
Printing thermoplastics for prototyping, experimenting, learning, etc.
Slicer: Open-market slicers
Maximum printing temperature: 240 °CMaterials available on this machine Open filament system (1.75mm)
Maximum 3D part dimensions (inches) / L x W x H Build volume: 220 x 220 x 250 mm
Number of machines (specify) 3
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Maximum 3D part dimensions (inches) / L x W x H Build volume: 2m x 1m, 3m x 1m and 4m x 2m.
Number of machines (specify) 1
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Maximum 3D part dimensions (inches) / L x W x H Build volume: 294 x 192 x 148.6 mm
Number of machines (specify) 1
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Contact info
Ilyass Tabiai
Contact resource person
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